Brush-machine.



H. M. SCHWARTZ.

BRUSH MAUHINB.

n APPLIGATION FILED MAY a, 190s.

Patented June 8.1909.

11 SHEETS-SHEET 1.

IHHIHMII ha J @W yh/....6122

Ffa/u/ o., wxsmNaroN, n. 1:.

H. M. SGHWARTZ.

BRUSH MACHINE.

APPLICATION FILED MAM, 190B.

924, 194. Patented June 8, 1909.

11 SHEETS-SHEET 2.

rus Nomzls Ps1sns ca., wAsHlNaroN, n. c.

H. M. SCHWARTZ.

BRUSH MACHINE.

AFPLIGATION FILED MAY 8, 1908.

Patented June 8, 1909.

11 SHEETS-SHEET 3.

-wns ca. wnsnmcmlv, n. c.

www1/@550.1-

Patented June 8, 1909.

11 SHEETS-SHEET 4.

1HE NURms ilnsns co., wAsmNai'aN. n. c.

H. M. SCHWARTZ.

BRUSH MACHINE.

APPLIGATIQN FILED MAY a, 1908.

Patented June 8, 190'9.

11 SHEETS-SHEET 5.

QL@ 'y 7n/w Wwf/yf 1n: Numzls Prrrlu co., WASHINamIv. D. cA

H. M. SCHWARTZ. BRUSH MACHINE.

94, 1 94. .APPLICATION FILED Mns, 190s. Patented June 8, 1909;

11 lSHEETS--SBIEET 6.

THE NokRls Pzrslls co.. wAsHlNaroN, n. c.

HI M. SCHWARTZ.

VBRUSH MACHINE. APPLIGATION FILED MAY s,A 190s.

924,194. l Patented Janes, 1909.

11 'SHEETS-SHEET 7.

ru: NoRRls Persa.: o.. wasumarau. n. c.

H. M. SCHWARTZ.

BRUSH MACHINE.

APPLICATION FILED MAY B, 1908.

PatentedJune 8, 1909.

11 SHEETS-SHEET s.

rm: Nonnls PETERS ca.. wAsHmaraN.-n. z:v

H. M. SCHWARTZ.`

BRUSH MACHINE.

924,;1 94. APPLICATION Hm M'AU' 1908" Ptented June 8, 1909.

11 SHEETS-SHEET 9. IU if; El /53/ 620// i I 44 /54 MINIME 'IIHIIH i 1f-{9m- A"Hull V' unuunnuuum IH EHTHHH HH I ms nonni: Fsrsns co., wAsHmnroNfn. c.

H. M. SCHWARTZ.

BRUSH MACHINE. APPLICATION FILED MAY 8, 1908.

v Patented June 8, 1909.

11 SHEETS-SHEET 10.

HI III I'f'lHll Illll-lllllll flu: Norms rrrslu cn.,'\\msmrl arou, D. c.

H. M. SCHWARTZ. BRUSH MACHINE.

APPLIGATION FILED MAY 8|, 1908, PatentedJ-une 8.

www2/9556i ffm/@Ww /M/ MM @naw M 93M y MM 1H: NoRRls Ps'rlms co.. ivAsmNo-rau, n. c.

uNrrED s'rATEs lP'Afrmv'r eric.

HERMAN M. SCHWARTZ, OF NORTHAMPTON, MASSACHUSETTS, ASSIGNOR TO THE FLORENCE MANUFACTURING COMPANY, OF NORTHAMPTON, MASSACHUSETTS, A CORPORATION OF MASSACHUSETTS.

BRUSH-MACHINE.

Specification of Letters Patent.

Patented .Tune 8, 1909.

To all whom it may concern.

Be it known that I, HERMAN M. SCHWARTZ, citizen of the United States, residing at Northampton, in the county of Hampshire and State of Massachusetts, have invented a certain new and useful Improvement in Brush-Machines, of which the following is a specification, reference being had therein to the accompanying drawings.

My invention has for its object an improvement in machines for boring the bristle receiving holes in brush backs and for filling these holes with bristles and securing the bristles in place by means of a fastening device made from metal or similar material. These operations are sometimes called drilling and plugging respectively.

The embodiment of my invention shown in the accompanying drawings and hereinafter described is designed for use in the manufacture of toothbrushes, although as will be clear, a machine embodying my4 invention may be designed for the manufacture of other kinds of brushes.

My improved machine is shown as supplied. with eight brush backs which are carried in pairs on a revolving carrier or support. One drill and one plugger is provided and one pair of brush backs is operated on at a time; one of these brush backs is drilled and another which has been previously drilled is plugged, these plugging and drilling operations being simultaneous. When the plugging and drilling operations for one pair of brush backs are completed, the revolving carrier or support moves through a quarter of a circle and presents another pair' of brush backs to the drill and plugger. lWhen the carrier has completed three-quarters of a revolution, the drilled back and the filled or plugged brush are removed by the operator, and a drilled back is put in place of the filled brush and an undrilled back or blank is put in the place of the drilled blank. This is the only manual operation required, and is performed without stopping the machine. It will be clear, therefore, that at each quarter turn of the carrier or support after it has completed its first revolution, a filled brush is removed by the operator. The drilling and plugging apparat-us is relatively stationary while the carrier or support for the brush backs which is mounted upon a reciprocating carriage moves horizontally toward and from the drill and plugger so that the brush backs which are to be drilled are moved on to the drill, and the depth of the hole drilled may be regulated by regulating the length of movement of the reciprocating carriage. The machine, therefore, embraces two parts or cooperating mechanisms, (l) that which operates t-he drill and plugger, and supplies bristles and fastening devices to the plugger, which part as above stated is relatively stationary in the form of construction herein shown; and (2) what may be called the reciprocating portion of the machine which moves toward and from the drill and plugger and which embraces the revolving carrier or support for the brush backs, mechanism for revolving the carrier at predetermined times through a quarter revolution; mechanisms for moving the carrier horizontally while a pair of brushes is being drilled and plugged, and for moving the carrier vertically a distance equal to the distance between the rows when the end of a row has been reached, which mechanism also operates when the last tuft of bristles has been set in a brush back to move the holder vertically and position the mechanism properly for the beginning of the drilling and plugging operation in the next pair of brushes which are to be presented to the drill and plugger.

My invention is fully described in the following specification, reference being had to the accompanying drawings, and the novel features thereof are pointed out and clearly defined in the claims at the close of this specification.

While the machine shown in the accompanying drawings and described in this specification is of a specific form especially adapted to operate upon a tooth-brush of a particular description, yet it is obvious that machines embodying my invention may be employed in the manufacture of other kinds of tooth-brushes and of brushes for diderent purposes without the necessity of changes other than those which can be readily made by a person skilled in the art, and that such machines will be within the scope of the present invention.

Tn the drawings,-Figure l is a plan view of a machine embodying my invention. Fig. 2 is a side view of that part of the machine which carries or supports the brush-backs and by means of which they are presented to the drill and the plugger so that the bristle-receiving holes may be drilled successively in one brush while simultaneously therewith in another brush which has been previously drilled, the bristle receiving holes are successively filled. Fig. 3 is a top view of the mechanism shown in Fig. 2. Fig. al is a side View of the mechanism shown in Fig. 2 viewed from the opposite side from that shown in said Fig. 2, and on a smaller scale. Fig. 5 is a rear View of the mechanism shown in Fig. 2. Fig. 6 is a longitudinal section. Fig. 7 is a plan view showing the brush-back carrier and its operating mechanism. Fig. S is a front elevation of the head which carries the brush-backs showing eight brushbacks in position. Figs. 9 and 10 are an elevation and a plan view respectively of the cam and connected mechanism which operates to position the brush carrying head vertically. Figs. 11 and 12 are respectively an elevation and plan of the cam and its operating mechanism which operates to position the brush carrying head horizontally. Fig. 13 is a detail of the pushing lever S1 and connected parts. Fig. 14 is a plan view of the rear end of the stop 158 and of the arm 165.

Having reference to Fig. 1, the drill is indicated at 1 and the nose of the plugger at 2. That portion of the machine with which the drill and plugger are connected, and which is shown in said ligure to the left of the drill and plugger, l have referred to above as the stationary portion and while I have made improvements in this part of the machine, they form no part of my presentinvention, but are the subject of separate applications for Letters Patent. So far as the present application is concerned, the drill and plugger may be considered as operating in the well known manner.

My present invention relates to that portion of the machine which is shown in plan view at the right of the drill and plugger in Fig. 1.

will first describe the mechanism by means of which the reciprocating carriage is moved back and forth to present the work to the drill and plugger for each hole that is drilled and each tuft of bristles which is set. lt will be understod that this mechanism is distinct from the mechanism by means of which the carrier or brush support is moved in the plane at right angles to the drill and plugger to present the successive holes to the said drill and plugger, the movement of the reciprocating carriage being in a line with the axis of the drill and plugger.

Referring particularly to Figs. 2 and G, at S is shown the stationary upright or standard upon which the machine is supported. T indicates a stationary table thereon to whichis suitably secured a support for a driving pulley 413 and a ca sing The foregoing comprise substantially the stationary parts, the other parts shown in Fig. o moving back and forth with the movable carriage. lllithin the casing S5, is a` housing Sl preferably square in cross-stwtion which reciprocates lengthwise within the said casing. At the forward end of the hosting 8l is secured the movable carriage 162 provided on its lower side with grooved membersl Sil which rest upon ways S31 upon the upper surface of the table 'l and support the carriage. Upon the carriage 102 is Isupported the disk shaped carrier 23 to which the brush backs are secured during the drilling and plugging operations. lt will be seen that the reciprocating carriage is movable horizontally back and forth to present the carrier and the brush backs .secured thereto to the drill and plugger at proper intervals. 'lhc reciprocation of the carriage 1(32 and attached parts is effected in the following manner 'lfwo arms 80 secured to the. housing Sl: and projecting downwardly therefrom carry between them a pivoted block ST through which a connecting rod S8 passes. (')n the other side of the block ST and on the rod 8S are fixed collars St) and 90 which secure the rod to the block while at the same time permitting the rod to rotate in the said block 8T. The rear end of the connecting rod .is screwthreaded as shown at $11 and passes through a block 92 journaled in the upper bifurcated end of the vertical lever $123. waid lever S13 is pivoted on a rod 9T between projections $15 and 0G on the frame of the machine (see Fig. 4l), and the said lever 93 is oscillated in any convenient manner as for instance by a cam or eccentric. As it is common in machines of this class to reciprocate the brush support by means of an oscillating lever actuated by a` cam or eccentric, it has not been thought necessary to show said actuating means. From the foregoing it will be seen that the depth of hole drilled by the machine may be regulated as desired by rotating the connecting rod SS by means of a. thumb-nut 9-1 attached to the front end of the said connecting rod. The said reciprocatin g carriage 162 supports a shaft T1-l which for convenience may be called the cam shaft. This cani shaft has a step-by-step rotation for about eight-ninths of its revolution, the remaining portion of the revolution being given to it continuously b v means which will be later described. The step-by-step movement of the said cam shaft 'T-lis inlparted to it, in the following manner: On a tixed part of the frame of thel machine is located a projection 176 against which one arm of a bell crank lever 173 strikes each time that the reciprocating carriage is iuoved back, the said bell crank lever being pivoted to the reciprocating carriage by means of a vertical stud 17-1 The other arm of said l t) (l bell crank lever 173 enters a slot or recess 17 5 in a dog 169 which is mounted on a stud 171 on the front wall of the reciprocating carriage. The dog 169 is slotted lengthwise at 17 0 so that itis free to slide on the said stud 171, whenever the bell crank lever is moved. The end of the dog 169 is formed into a point or prong which engages successively the teeth of the ratchet feed wheel 168. Every time the reciprocating carriage is moved back, the arm of the bell crank lever 173 comes in contact with the fixed projection 176 and the dog 169 is slid to the left as seen in Fig. 11, engaging one of the teeth of the ratchet wheel 168 and moving the wheel through a distance 4equal to one tooth. The dog 169 is returned to its original position by a spring 177 engaging a projection on the rear end of the dog. To prevent the ratchet wheel 168 moving back with the dog 169 after each forward movement, there is provided the hook shaped locking lever 17 8 the point of which engages one of the notches in the periphery of the ratchet 168. The said locking lever 17 8 is provided at its end with a point which projects within a notch in the dog 169. rlhe locking lever 178 is pivoted at 179 on an upright of the reciprocating carriage 162 and is further provided with a handle 206 by means of which the operator may move said locking lever out of engagement with the ratchet wheel 168 and this same movement frees the point of the dog from engagement with the said ratchet wheel so that the operator' may turn the shaft 74, the ratchet wheel 168 and attached parts by hand to any desired position should it become necessary. Said locking lever 17 8 is normally maintained in contact with the ratchet 168 by means of a spring 180, one end of which is fast to a stud 181 on the reciprocating carriage.

Having now outlined the construction of the machine and described the reciprocating carriage, the means by whichlit is moved and the means by which the cam shaft is given its step-by-step rotation, I will now describe in order the means for supporting or carrying the brush backs; for revolving the carrier to present successively the pairs of brush backs whichV are mounted thereon to the action of the drill and plugger; for moving the carrier or support horizontally to present the brush backs successively step by step to the drill and plugger, while a row of holes is being drilled in one brush back and a row of bristle tufts is being set in another brush back; and for moving the carrier or support vertically from one row of holes or bristles to the succeeding` row, and when the last hole is drilled in one brush back and the last tuft of bristles set in the other brush back reversing the vertical movement of the carrier in order that the next pair of brush backs may be presented to the dril1 and plugger in the proper position to begin the operation of drilling and plugging over again.

The brush support or carrier is shown in elevation in Fig. 8. It comprises a disk 3, the periphery of which is provided with gear teeth 4. At the center of the diskshaped carrier 3 is a hole 8 to receive the stud 7 (see Fig. 7 upon which the carrier 3 revolves, said stud being fast in a bar or strip 500 set in a slot or recess in the face of the plate 5. On the face of the carrier 3, I provide eight clamps, each of which is of substantially the same construction. I will describe the upper left hand clamp, Fig. 8, and this description will suffice for each of the other clamps. Two blocks or stops 9, 9, for the side of the brush back and astop 11 for the end of the brush back are secured by screws 10, or in other suitable manner to the face of the carrier 3, and are so located thereon that when the brush back is brought into contact with them, as shown Fig. 8, it will be properly positioned. The other side of the brush back is in contact with a wedge shaped clamp 13 which is arranged to be forced inwardly between theside of the brush back and a stationary plate 14 which is secured by screws 15 to the face of the carrier 3. The plate 14 has an inclined and recessed side which is in contact with the correspondingly inclined side of the wedge 13 and prevents displacement of the wedge 13. The wedge 13 is provided with a lengthwise slot 16 of suiiicient length to permit the wedge to be slid in and out of clamping position when a brush back is to be removed or placed in position. A stud 17 is set in the face of the disk 3 and projects through the slot 16 and by this means the wedge 13 is prevented from lateral displacement. For the purpose of operating the wedge 13, I provide a lever 18 pivoted at 19 to the face of the carrier 3. A link 2O is pivoted at one end, as shown at 21, to the lever 18 and at the other end as shown at 22 to the end of the wedge 13. The lever 18 is curved outwardly away from the carrier (see Fig. 6) just above the pivot 19, and also is curved in the plane of Fig. 8 at the free end as shown so that the lever may be swung over the brush back as shown for eX- ample at 23 and 24, and may be grasped by the fingers of the operator when the wedge 13 is to be operated for the purpose of releasing one brush back or of clamping an other in position. By swinging the lever 18 to the left, see Fig. 8, the wedge 13 will be raised and the brush back which is there shown as clamped in position released.

In Fig. 8 the brush backs designated A and B are in the positions which they occupy when they are iirst placed in the machine. It will be noted that A is drilled and is ready to be filled that is, to have the bristles set therein, while B is an undrilled blank. The filling and drilling of the brush backs are always performed when the latter are in the positions occupied by the backs designated C and D, the movement of the carrier 3 being in the direction indicated by the arrow and each movement of the disk being' a quarter revolution. The backs C and D are shown as being in process of being filled and drilled respectively, nine holes of the lower row of the back C having been filled with tufts of bristles and nine corresponding holes in the lower row of the blank D having been drilled. As the filling and drilling continues, the carrier 3 is moved bodily step by step toward the left (Fig. S), each step being equal to the distance between t-wo adjacentholes. Since both brush backs are supported by the disk 3, the spacing between the holes is always uniform and the plugger which sets the bristles registers accurately with the holes which are to be filled. When the hole at the right end of the lowermostrow of holes in the back C has been filled, the carrier 3 is moved downward vertically a space equal to the space between the said hole and the hole directly above it at the right end of the second row of holes. rllhe carrier 3 then moves step by step to the right (Fig. 8) until the hole on the other end of the row is filled (a corresponding row in the back D being simultaneously drilled) when another downward movement of the carrier occurs to position the plugger for the hole at the left end of the third row. Again the carrier 3 moves step by step to the left until this row has been filled, when another downward movement positions the plugger for the top row. The carrier again moves to the right step by step until the last hole in this row has been filled when the carrier 3 moves upward vertically a distance equal to the space between the hole at the left end of the uppermost row and the hole at the left end of the lowest row. Simul` taneously with the last mentioned vertical movement the carrier 3 is revolved through a quarter revolution and the backs A and B are moved into position to be plugged and drilled. By the quarter revolution referred to, the backs E and F are moved into the position occupied in the said figure by the backs G and H and the backs G and l-l. are, as will be clear, moved into the position occupied by the backs A and B. The operator now takes the backs Gr and H ont of their clamps, the back G- being filled and completed so far as the operation of this machine is concerned, and in condition to have the bristles trimmed and to be otherwise finished. After removing the filled back G and the drilled back H, the operator places an undrilled blank, such as is shown at B, in the clamp from which the drilled back H was removed and a drilled back, as

shown at in the clamp from which the filled brush G vas removed. itt the next quarter revolution these two backs are swung into position to be acted upon b v the diiller and plugger, and the operation .is repeatml. This operation of replacing the filled brush and the drilled back by a drilled back and an undrilled back respectively is performed while the drill and plugger are doing their work, the backs which have come into position at the top of the carrier being removed, while those shown at C and l) are being` drilled and filled respectively. From the foregoing it will be seen that the drill and plugger are operating continuously, it not being necessary to stop the machine to ieinove and replace the brush backs. Ateach quarter revolution of the carrier 3, therefore, a brush which has heen plugged or tufted is removed from the machine.

In connection with the description oitl the carrier 3 and the clamping devices mounted thereon, attention is called to the spring actuated strips or arms 25, four of which aie located at substantially equi-distant points on the said carrier 3. rlhese arel each mount,- ed on a short stud 2G, (see Fig. 7), by means of a screw 2T, said screw also passing through the end of the leaf-spring 2S which bears upon the arm 25, and which tends te press the said arm toward the face ot the carrier. The free end of the said arm rests upon the head 29 of a pin 30 which projects through the disk as shown more clearly in Fig. 7. The pins 30 are stop-pins and act successively, one at a time, to lock the carrier 3, after it has completed a quarter revolution, to the plate 5, and to hold the carrier in its place while the drilling and plugging operation is proceeding. The means employed for releasing these pins when the carrier 3 is to be revolved will be hereinafter described. Projecting over the head of each pin is a short arm 3l which is of the angular shape shown in Fig. 7, and provided with a base 3Q which is secured to the face of the carrier The said arm 31 serves as a stop to prevent the pin 30 from being pushed out of its socket or hole in the carrier 3 while at the same time permitting the pin to be pushed forward until its inner end is flush with the inner or rear face of the said carrier 3.

As above stated, when a brush hack has been filled and its companion drilled, the

disk-shaped carrier 3 is moved through a quarter revolution. rlhis is acconiplished by means of a gear 33, see Figs. l, 3 and et,

lOf)

ll t) which is mounted on the end of a shaft 31tj ouriialed in an arm oi' projection 35 secured to the strip 500 which latter is set in the plate 5. The gear is in front of the arm 35 and at the rear of said arm on said shaft 34 is a collar 3G which receives the endthrust of the shaft and Jrevents the eear 33 from being displaced. The arm 35 is bolted to its support 500 in order that it may be detached should it be desired for any reason to remove the gear 33 for repairs or the like. The shaft 34 is provided on its rear end at 37 with a universal joint connection with the shaft 33. The shaft 38 is adapted to slide in a sleeve-shaft 39 so that the gear 33 and the shafts 34 and 33 with their universal connection 37 may move forward and back relatively to the sleeve-shaft 39 while at the same time power may be applied to revolve the gear 33. The sleeve-shaft 39 is slotted lengthwise as shown at 600, Fig. 3, and a pin 601 passes through said slot on to the shaft 33 so that the two shafts will revolve together. Thel forward and backward movement of the gear is due to its being mounted upon the reciprocating carriage of the machine which moves toward and from the drill and plugger at each time that a hole is drilled and -a tuft of bristles set. The rear end of the sleeve 39 is provided with a universal joint connection 40 and is thereby connected with a shaft 41 which is journaled in an upright 42 secured to the stationary frame. The shaft 41 is provided with a pulley 43 through which power may be applied. The pulley 43 is provided with a spring and dog clutch of well known construction by means of which it may, when desired. be rendered fast or loose on the shaft 41. The mechanism by means of which this clutch is operated will be hereinafter described.

It will be clear that, through shaft 41, the gear 33 may be driven and the disk shaped carrier revolved, and that the distance through which the carrier revolves may be governed by the clutch which operates to render the pulley 43 fast or loose on its shaft. rlhe mechanismV for operating the said clutch, which is hereinafter to be described, is such as to permit the carrier 3 to be moved through a quarter revolution. Vhen the said carrier has completed a quarter revolution, one of the locking pins 30, heretofore described, snaps into a socket or hole 44, Fig. 7, in the plate 5, and locks the carrier 3 in proper position for a pair of brush backs to be acted upon by the drill and plugger. During the greater part of the revolution of the carrier the pins 30 do not overlie the plate 5, and their ends, therefore, project beyond the rear face of the carrier. For the purpose of pushing them in so that they will be flush with the rear face of the carrier, before they reach the hole 44 in the plate 5 with which they engage, I form a groove 45 (see Fig. 7 in the plate 5 and in the path of the pins 30, said groove having an inclined bottom which, as the pin passes over it, will operate to push the pin in until it is flush with the face of the carrier 3. The continued revolution of the carrier moves the pin over the hole 44 and when this occurs the pin snaps into the hole and locks the carrier. Before the carrier can be again revolved the pin 30 must be freed from the socket 44, as will be clear. To effect this I provide a plunger 46 shown in Figs. 2 and 3. The forward end 4"( of this plunger enters the hole 44 from the rear, see Fig. 3, and as the plunger is pushed forward, it pushes the pin 30 forward and frees it from the hole, thus unlocking the carrier 3. The plunger 46 is of less diameter at its forward end and its tip is slightly rounded to permit it to enter the hole 44 as will be clear from Fig. 3. The plunger is mounted to slide in guides formed in the blocks 43 and 49, see Figs. 2 and 3. Block 43 is secured to an upright portion of the reciprocating carriage and block 49 is a part of the upwardly projecting bracket 50 fast on the stationary frame of the machine. The plunger is formed to telescope, the forward part 46 thereof being adapted to slide into the rear part 51. The two parts areV held extended by means of a spiral spring 52 which encircles the part 46 and is located between a collar 53 fast on the forward end of the rear portion 51 of the plunger and a collar 54 fast on the forward portion 46. The resistance of this spring 52 is such that it will not be compressed in the operation of the plunger in pushing the pin 30 out of its socket. In the forward movement, however, of the plunger the shoulder 605 thereon comes in contact with the block 43 which acts as a stop and the spring 52 prevents the rear end of the plunger continuing its forward movement due to the movement of the reciprocating carriage.

The plunger is moved forward at the proper time to push the pin 30 from its socket 44 by means of a lever 55, see Fig. 2. The upper end of the lever 55 is slotted., as shown at 56, to receive a pin 57 which projects through said slot and through the bifurcated rear end of the plunger, as will be clear from Figs. 2 and 3. The lever 55 is slotted lengthwise at 53 to receive the stud 59 which passes through the said slot 53 and is secured to an upright portion 60 of the stationary frame. By this arrangement as the lever 55 is swung on the stud 59, it may also move vertically as required. The lower end of the lever 55 is pivoted at 61 to a cam lever 62. This cam lever 62 might be termed a floating lever. It is provided with a cam 606 at its forward end which is in contact with a roll 64 set on a pin or stud 65 projecting from the vertical portion of the frame. As the lever is moved rearwardly, the cam 606 depresses its forward end. A plate 66 secured to the table 67 is placed outside of the forward end of said lever 62 and serves to insure the lever against displacement and to: keep it in contact with the roll 64E. rlhe real1 end of the lever 62 is also provided with a cam surface 68 which is in contact with a roll G9 similar to the roll 64A. The roll G9 is mounted on a stud or pin 70 which projects from an upright of the stationary frame and a plate 7l similar to the plate GG issecured to the table 67 and to the horizontal top portion of the frame and serves to keep the rear end of the lever 62 in contact with the roll G9 and to prevent the lever from being laterally displaced. The lever G2 is held against the rolls G9 and 6lby means of a spiral spring 7 2 which is fast at one end 'to the rear end of the lever 62 and at the other to a stud 78 on the table or frame G7, as will be clear from Fig. 5. rlChe movementof the lever GQ is substantially a horizontal movement and occurs only when it is necessary to actuate the plunger 4G and unlock the disk rlhe said lever G2 is therefore actuated only once for each pair of brush backs that are drilled and filled and its operation occurs when the drilling` and filling operation has been completed. To effectthis intermittent movementof the lever G2, I provide an arm 63, Fig. which is fast on the shaft 7a. rlhis shaft makes one revolution while each pair of brushes is being,` acted upon and during each revolution of the shaft, the arm 63 is brought into position in front of a block 7 on the upper end of an arm 76 which is rigidly ecured to the inner face of the lever 62 at the rear end thereof, as is shown more clearly in Fig. 5. The shaft 7st in addition to its revolving movement slides forward and back with each reeiprocation of the head to carry the brush backs 'toward and from the drill and plugger and when the arm G3 comes into position in front of the block the shaft 7st is in its forward position. As it moves backward the end of the arm 63 engages a notch 77, see F 5, in the block 7 5 and earries back the block and the lever G2 with which the block is rigidly connected. its the lever 52 is carried back, its cam face G8 rides up on the roll G9 so that t-he rear end of the lever is raised as the lever is moved rearwardly. rllhis upward movement of the rear end of the lever G2 operates after the lever has been moved a suilicient distance to the rear to raise the block 7 5 above the project ing` end of the lever G3, t-hus freeing the block 7 from engagement with the arm G3 and thereby stopping the rearward movement of the lever G2. The said rearward movement of the lever G2 causes the upper end of the lever to be swung forward, or to the left, Fig'. 2, and forces the plunger 46 forward, freeing the pin 30 from its hole in the plate 5 and permitting the disk-shaped carrier 3 to be revolved. The levers G2 and 55 are returned to their original positions by means of a spiral spring 78, see Fig. 2,

which is fast at one end to a stud or hook 79 near the upper end of the said lever 5.5', and at the other end to a stud 80 on top of the stationary frame. The said reverse movement is further helped by the pull of the spring` 72 at the rear end of the lever (12 which has heretofore been described.

rl`he operation of this part of the maehine may be stated as follows 2-Just before the time when the plunger 4G should unloek the carrier 3, the point of the arm (313 engagesl the block 75 on the lever (32 so that the backward movement of the reeipriaating carriage pulls back the lever 62, thus foreingthe plunger lt into the hole tstand driving outV the pin. The point of the plunger is moved forward by this movement until it is -stopped by the shoulder (305 coming in eontaet with the block 4S, this forward movement of the plunger being just suflieient to release the locking pin. The revolution of the earrier Il begins instantly after the pin has been re leased from the hole and at the same in -tant the plunger snaps back into its rear or nor` mal position having been released from engagement with the. arm (l-3 by the eam surface (38 riding up on the roll (3S). rThe rearward movement of the plunger is a ver v quick movement because the forward end must be out of the hole lt before the next stop pin on the carrier i reacties the hol and the time before the stop pin reaches the hole is very short owing to the comparatively quick inovement of the carrier. frs will he elear. the plunger must not release the earY rier until just the instant of time when it is to be caused to revolve b v the actuating mechanism and the plunger must remain in the hole 4st until the revolution of the ear riage has begun so that the locking pin will not snap back again into the hole. as soon as the arm G3 is free from engagement with the block 75 as above described, the .shaft 7l is caused to revolve quickly through about one-ninth of a revolution, swinging the arm (33 upwardly, so that in the reciprocating movement of the shaft 7l in the forward direction, the said arm tti-3 will not come into Contact with the block 75. This partial revolution of the shaft 7l; referred to is etl'eeted by means of a pushing lever 8l, see Figs. ll' and 13. Said lever 8l is mounted on a roeking lever ltll pivoted at 99 to the easing S5 on the stationary frameof themaehine. rl`he lever lOl is of the shape shown in Fig. 'lil and is provided with a curved slot. 102 and a screw clamping stud 103 by means of whieh the position of the pushing lever Si with relation to the .lever lOl may be. adjusted as desired. rllhe .said lever lOl is also provided at its lower end with a cam sl ot Ittt. through which projects a cam follower in the form of a stud 99 set in the housing St and movable therewith to rock the said lever ,101. Both of the levers Sl and 101 move as a solid Sl (l l (lo piece, although capable of relative adjust- .ment by slot 102 and stud 103 as described. As the reciprocating housing 84 is moved to the right in Fig. 13, the stud 99 will cause the free end of the lever 81 to move down and strike the lever 108 whichis fast on shaft 74 if the latter is-in the path of movement of the said lever 81 which occurs at one point in the revolution of the said lever 81. When the pushing lever 81 strikes the lever 108, it pushes the lever 108 around and causes a partial revolution ofthe said shaft 74 and attached parts. The rotation of the shaft 74 moves the arm 63 out of contact with the block 75 on the cam lever 62. About eight-ninths of the revolving movement of the shaft 74 which actuates the cams which position the carrier is an intermittent stepby-step movement corresponding with the step-by-step movement of the brush back holder, but the partial revolution of said shaft just referred to takes place all at once after the operations on a pair of brush backs have been completed, and while 'the next pair is being shifted into position to be acted upon. At this time also the brush back carrier is raised vertically to properposition to begin the drilling and plugging of the next pair of brushes. The rotation of the diskshaped carrier 3 through a quarter revolution to present the next pair of brush backs to the drill and plugger (one pair having already been completed) is effected by operating the clutch of the pulley 43, as follows: The pulley 43 is provided with a shipper lever 116 held in engagement with a notch 203 in the clutch disk 120 by a spring 128. Said shipper lever 116 is provided at its other end with a block 115 provided with an inclined or cam face. There is also provided a slide 113 having ony itsn rear end a block 114 having a cam face corresponding to the cam face on the block 115. The slide 113 has also near its rear end a horizontally projecting stud 117 carrying a block 1121; said slide 1.13 is normally maintained in a forward position by means of a spiral spring 125.

The step-by-step rotation of the shaft 74 while a pair of brush backs are lbeing operated upon brings the lever 111 fast on the shaft 74 (see Figs. 3 and 5) into the position there shown with its free end in front of the block 112 on the slide 113 so that the next rearward movement of the shaft 74 carries the slide 113 backward and causes the cam shaped block 114 to engage the corresponding cam shaped block 115 on the shipper lever 116 and trip the said lever 116 thereby releasing the clutch disk 120, which is thereupon turned by the pulley 43 and makes one revolution, being stopped at the end thereof by the engagement of the shipper lever 116 with the notch in the clutch disk 120. The carrier 3 is thereby given one-fourth of a revolution, that being the amount which is caused by a complete revolution of the gear 33. 'lhe backward movement of the shaft 74 which causes the arm 63 to engage the block thereby driving out the pin 30 and releasing the carrier 3 is the same movement which causes the lever 111 to pull back the slide 113 and trip the shipper lever 116, thus setting in motion the pulley 43 and the carrier 3. In the next reverse or forward movement of the shaft 74, the pushing lever 81 descends and contacts with the arm 108 on the shaft 74 giving the shaft a small portion of a revolution and moving the lever 111 out of contact with the slide 113.

The mechanism heretofore described comprises the reciprocating carriage, the cam shaft and the actuating means for them, the revoluble disk-shaped carrier which carries four pairs of brush backs, the means for moving said disk through a quarter revolution to present a new pair of brush backs to the drill and plugger when the drilling and plugging operations on the previous pair have been completed, and the mechanism employed to lock the disk in place while the drilling and plugging operation is proceeding. it remains to describe the means by with the brush back carrier 3 is shifted step by step horizontally and vertically to present the two brush backs properly to the drill and plugger to drill and fill the entire series of holes. These horizontal and vertical movements of the carrier are obtained by means of cams on the shaft 74, and to permit the carrier 3 to be thus horizontally and vertically moved, it is supported by a slide or plate which is free to move vertically and which in turn is mounted upon a second slide or plate which is free to move horizontally. The arrangement of the said plates or slides is clearly shown Figs. 3 and 6, the vertical slide being there numbered 5 and the horizontal slide 152. The vertical movable slide 5 supports the carrier 3 and is mounted in guides or ways 130 and 131. The rear face of the said slide 5 near the top thereof is slotted transversely as indicated at 132 to receive a roll 201 on a projection 133 on the forward end of the lever 134. The slot 132 permits the slide 5 and carrier 3 to move horizontally relatively to lever 134 and at the same time to be moved up and down by the action of the .said lever. This lever 134 is pivoted at 135 to an upright 136 fast on the bracket 137 which is mounted on the housing 84. The lever 134 is provided with a downwardly projecting arm 138 pivoted at 139 to the lever, and its lower end is bifurcated to receive a roll 140. The roll 140 rests upon a cam 141 which is fast on the shaft 74 and is held in contact therewith by the weight of the carrier 3, the slide 5, the lever 134 andy connected parts. As will be clear, the roll 140 being in contact with the periphery of the revolving cam will raise and lower the lever 184, and consequently the slide 5 and brush back carrier will be raised or lowered in accordance with the shape of the cam.

The cam 141 just described operates to raise or lower the carrier 8 and the brush backs thereon between the successive rows of bristles, this being the so-called vertical movement of the carrier. The cam which, effects the horizontal step-by-step movement of the carrier from hole to hole of the same row of holes is shown in elevation at 151 in Fig. 11 and is fast on shaft 74, being located at the eXtreme left of the shaft as seen in Fig. 6 and directly behind the horizontal slide 152. This slide 152 moves in dove-tailed guides or ways 153 and 154 in the vertical frame 155 of the reciprocating carriage. @n the rear face of the said sliding plate 152 is set a stud carrying a cam roll 156. The position of the roll 156 with relation to the cam 151 will be clear from Fig. 11, and this roll is held in contact with the periphery of the cam by a spiral spring 186, see Fig. 7, one end of which is fast to a stud 187 on the reciprocating carriage and the other to a projection 188 from the slide 152. From the foregoing it will be seen that the slide 152 is moved in one direction by the cam 151 and in the reverse direct-ion by the said spring 186.

The shape of the cam 151 is clearly shown in Fig'. 11. As has been previously stated, the shaft 74 is given a step by step rotation during about eight-ninths of its rotation. The cam 151 shown in Fig. 11 by means of which the carrier is given its horizontal movement and the cam 141 in Fig. 9 by means of which the carrier is given its vertical movement are shown in the said figures in the positions which they occupy when the. machine is about to begin the operation of drilling one brush back and filling another. The drill and plugger preferably begin with the two holes 148 and 144 in Fig. 8. The step-by-step rotation of shaft 74 moves the slide 152 to the left (viewing the machine from the front, i. c. the bottom of the sheet of Fig. 8) until the holes in the lowest row have been drilled. Then the end of that row is reached, the cam roll 140, having' reached the notch 202 in the cam 141, drops onto the next level of the cam, thereby lowering the carrier a distance equal to that between the first and second rows of bristles in the brush. This lowering movement of the carrier takes place while the cam roll 156 is in contact with the portion of the cam 1.51 at the top in Fig. 11. A continued rotation of the shaft 74 moves the horizontal slide and carrier bach again as the holes are drilled in the second row. During this movement the carrier is stationary so far as its vertical movement is concerned, the roll 140 being at this time on the surface of the cam 141 between the notch 202 and the notch 204. it the end of the row, the roll 140 drops into the notch 204 and the horizontal slide and carrier are moved to the left again by the cam 151 to set the third row of bristles. .it the end of the third row of bristles, the cam lltldrops down at the, notch lowering the carrier the requisite distance, and then the said carrier is moved backward to set the fourth. row of bristles. This completes the work of drilling and iilling one brush, and it is then necessary for the machine to be returned to its original position. ribis accomplished by the rotation of the shaft 74 through the remaining portion of the revolution which is that portion lying between point 206 and point 207, (Fig. tl). During` this time the carrier is lifted the distance between the top row and the bottoni row of holes.

It will be clear that the shaft 74 must be prevented from movement and locked securely in position during the time that a hole is being drilled and a tuft of bristles being set. To thus lock the said shaft, l provide a ratchet 157, see Figs. 6 and 9, which is fast thereon, and is engaged by a` stop 158. rlhe forward end of the said stop 158 is turned at right angles as shown in Fig. 6 and is beveled as shown at 206, Fig. 9, so that it will project between the teeth of the ratchet, and will serve while in engagement therewith to prevent the ratchetI 157 and consequently the shaft 74 from moving backward. The stop 158 is pivoted at 159 in the upper bifurcated end of an upright. 160 which is fast on a. rearward projection or bracket 161 secured to the reciprocating carriage 162. The rear end of the stop 158 is oitlfset and beveled as shown at 163, (see also Fig. 14), and when the reciprocating carriage moves rearwardly, the inclined face 163 engages a, correspondingly inclined and offset projection 164, (sce also Fig. 14), on an arm 165 pivoted to the stationary upright, 166. and normally maintained in the position shown in Fig. 6 by a spring 208 and a pin 20S). As the reciprocating carriage reaches the end of its rearward movement, the inclined surfaces 163 and 164 are brought into contact and the pawl 158 is freed from engagement with the 1atchet 157. By the further movement of the carriage, the inclined surface 1621 passes olf the inclined surface 164-, causing the front end of the stop ratchet 157, said stop being moved upward by means of the leaf spring 167 secured on top of the support 160. During the forward movement of the carriage, the inclined surface 168 passes under the offset portion of the arm and the said. arm rises slightly compressing the spring 208 to allow the stop 158 to move forward. By this means the ratchet 157 and consequently the shaft 71- are free to revolve when the reciprocating to enga ge the El (l fio carriage is approaching'its rearmost position after a hole has been drilled and a tuft of bristles set. When the pushing lever 8l strikes the lever 108, as previously described, and revolves the shaft 7 i through about oneninth of a revolution, the pau/'1158 is held from impeding the movement of the ratchet by means of the smooth portion of the rim of the said ratchet 157.

I claim as my invention l. In a brush-making machine and in combination With drilling and tuft-setting mechanisms, a revolving carrier for the brush backs, mechanisms for revolving said carrier, for moving it toward and from the drill Aand plugger, for positioning it vertically,

and -for positioning it horizontally to properly present the brush back to the drill and plugger.

2. In a brush-making machine and in combination with drilling and tutt-setting mechanisms,l a revolving carrier for the brush backs, mechanism for revolving said carrier, mechanisms for positioning it vertically and horizontally to present the brush back properly to the drill and the tuft-setting mechanism, and mechanism to cause the said drill and tutt-setting mechanism and the said carrier to approach each lotherto drill' the holes and to set the tufts of bristles.

In a brush-making machine and in combination with drilling and tut-setting mechanisms, a revolving carrier for the brush back, mechanism for revolving. said carrier, mechanisms for moving said carrier in two directions in a plane at right angles to the drill and tutt-setting mechanism to present the drill and tufter to the brush back to drill the holes and set the-bristles, and mechanism to cause the said .drill and tuft-setting mechanism and the said carrier to approach each other to drill the holes and set the bristles 4. In a brush-makingmachine and in combination with drilling and tut-setting mechanisms, a revolving carrier .for the brush back, mechanism for revolving said carrier, mechanisms for moving said carrier in tWo directions in a plane at right angles to the drill and tutt-setting mechanism to present the drill and tufter to the brush back for the successive holes and tufts of bristles, and mechanism to reciprocate the said carrier 1n the line of the aXis of the said drill and tufter.

5. In a brush-making machine and in combination with drilling and tutt-setting mechanisms, a carrier for supporting the brush backs and for causing them to travel in an orbit, mechanism for` revolving the brush backs in their orbit, mechanisms for moving the carrier toward and from the drill and plugger, for positioning it vertically, and for positioning it horizontally to properly Apresent the brush backs to the drill and .pluggen 6. In a brush-making machine and in combination With drilling and tutt-setting mechanisms, a carrier for supporting the brush backs and for lcausing them to travel in an orbit, mechanism for revolving the brush backs in their orbit, mechanisms for movin the carrier toward and from the drill and plugger, and for moving it in two directions -in a plane at right angles to the drill and pluofger to properly present the brush backs to die drill and plugger.

7. In a brush-making machine and in combination With drilling and tuft-setting mechanisms, a carrier, automatic means for moving said carrier to present successive pairs of brush backs to the drilling and tuft-setting mechanisms, and a series of clamps for the brush backs on the said carrier arranged in pairs in positions such that the movement of the said carrier shall present the pairs ot' lbrush backs successively to the drilling and tutt-setting mechanisms.

8. In a brush making machine and in combination with drilling and tutt-setting mechanismsa carrier, means for revolving said carrier to present successive pairs of brush backs to the drilling and tutt-setting mechanisms, a series of clamps for the brush backs on the said carrier arranged in pairs in positions such that the movement of the said carrier shall present the pairs of brush backs successively to the drilling and tutt-setting mechanisms, and independent means for moving the said carrier in two directions in a plane at right angles to the drilling and tutt-setting mechanisms to properly present a pair of brush backs to be drilled and tufted.

9. In a brush-making machine and in combination With drilling and tutt-setting mechanisms, a reciprocating carriage, a revolving carrier mounted on said carriage, cams to move the carrier in two directions in a plane at right angles to the drilling and tuftsetting mechanisms, and locking means to hold the carrier from rotation during the drilling and tufting operation.

10. In a brush-making machine and in combination with drilling and tuft setting mechanisms, a reciprocating carriage, a revolving carrier mounted on said carriage, means for giving to the carrier a partial revolution after the completion of the operation on a pair of brush backs, a pair of clamps on said carriage to hold the brush backs which are in operative position, and other clamps for holding brush backs in non-operative positions.

ll. In a brush-making machine and in combination With drilling and tui't setting mechanisms, a reciprocating carriage, a revolving carrier mounted on said carriage, 

